钙拮抗剂减少不可逆脑缺血的神经损伤。

A Sauter, M Rudin, K H Wiederhold
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引用次数: 36

摘要

由于临床研究的复杂性和成本,以及实际上缺乏药理学方面的领先优势,治疗中风的药物必须在接近模仿人类疾病的动物模型中进行广泛的测试。随着最近体内核磁共振成像(MRI)和光谱(MRS)的引入,现在可以用与人类相同的方法在动物中评估中风的后果并监测治疗干预的效果。用MRI观察自发性高血压大鼠(SHR)大脑中动脉闭塞后脑梗死的形态和演变。在通过大鼠大脑的冠状面切片中,MRI信号增强的区域在6小时后开始清晰可见,24小时后组织学显示已大部分坏死。位置(额顶叶皮质,尾状壳核)和总梗死面积,由MR图像或组织学确定,具有高度可重复性。用二氢吡啶钙拮抗剂isradipine (PN 200-110)治疗后,每日剂量为3 X 0.3 mg/kg sc,通过定量MRI和组织学证实,总梗死面积减少了30-40%。坏死的生化指标,如脑湿wt增加,钠、钾、多巴胺和去甲肾上腺素水平向正常值改变。这些形态学影响的功能后果反映在神经学评分的平行改善上。MRI和组织学的随访观察表明,2周后,治疗组和对照组之间的形态学差异仍然存在,因此,似乎是永久性的。为了阐明可能的机制,研究了钙拮抗剂对脑血流量(CBF)和高能磷酸盐(HEPs)的影响。用[14C]碘安替比林定量测定mca闭塞SHRs的CBF。虽然isradipine对对侧半球的CBF没有影响,但在减少梗死面积的剂量下,它使受损半球的血流量向正常值增加。采用表面线圈31P MRS无创测量大鼠脑内HEPs (PCr和ATP)、无机磷酸盐(Pi)和细胞内pH。在正常条件下,钙拮抗剂对这些参数没有影响。(摘要删节为400字)
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Reduction of neural damage in irreversible cerebral ischemia by calcium antagonists.

Because of the complexity and cost of clinical investigations and the virtual lack of pharmacological leads, drugs for the treatment of strokes have to be tested extensively in animal models closely mimicking the human disorder. With the recent introduction of in vivo NMR imaging (MRI) and spectroscopy (MRS), it is now possible to evaluate the consequences of strokes and to monitor the effects of therapeutic interventions in animals with the same methodology as in humans. The appearance and evolution of brain infarcts in spontaneously hypertensive rats (SHR), after occlusion of the middle cerebral artery (MCA), were detected with MRI. In coronal sections through the rat brain, regions with increased MRI signal started to become discernible after 6 h and turned out to be largely necrotic already after 24 h, as revealed by histology. The location (fronto-parietal cortex, caudate-putamen) and total infarct size, as determined from MR images or histology, were highly reproducible. Posttreatment with the dihydropyridine calcium antagonist isradipine (PN 200-110), at a daily dose of 3 X 0.3 mg/kg sc, reduced the total infarct size by 30-40%, determined by quantitative MRI and confirmed by histology. Biochemical markers of necrosis, such as the increased brain wet wt, the levels of sodium, potassium, dopamine, and noradrenaline, were changed toward normal values. The functional consequences of these morphological effects of isradipine were reflected by the parallel improvement of a neurological score. Follow-up observations made by MRI and histology indicated that the morphological differences between treated and control animals were still present to the same extent after 2 wk and, therefore, seem to be permanent. In order to elucidate the putative mechanisms involved, the influence of calcium antagonists on cerebral blood flow (CBF) and high energy phosphates (HEPs) was investigated. CBF was measured quantitatively with [14C] iodoantipyrine in MCA-occluded SHRs. Although isradipine had no effect on CBF in the contralateral hemisphere, at a dose reducing infarct size, it increased the reduced blood flow in the lesioned hemisphere toward normal values. HEPs (PCr and ATP) as well as inorganic phosphate (Pi) and intracellular pH were measured noninvasively in the rat brain by 31P MRS using a surface coil. Under normal conditions, calcium antagonists had no effect on these parameters.(ABSTRACT TRUNCATED AT 400 WORDS)

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The mechanism of ischemia-induced brain cell injury. The membrane theory. Peroxidative damage to cell membranes following cerebral ischemia. A cause of ischemic brain injury? Phosphoinositide turnover and calcium ion mobilization in receptor activation. Polyamines in cerebral ischemia. Reduction of neural damage in irreversible cerebral ischemia by calcium antagonists.
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